Windows-2K3-Dns.Pdf

Windows-2K3-Dns.Pdf

DNS What Is DNS Domain Name System (DNS) is one of the industry-standard suite of protocols that comprise TCP/IP. Microsoft Windows Server 2003. DNS is implemented using two software components: the DNS server and the DNS client (or resolver). Both components are run as background service applications. Network resources are identified by numeric IP addresses, but these IP addresses are difficult for network users to remember. The DNS database contains records that map user-friendly alphanumeric names for network resources to the IP address used by those resources for communication. In this way, DNS acts as a mnemonic device, making network resources easier to remember for network users. The Windows Server 2003 DNS Server and Client services use the DNS protocol that is included in the TCP/IP protocol suite. DNS is part of the application layer of the TCP/IP reference model. DNS in TCP/IP How DNS Works How DNS Works Domain Name System (DNS) is the default name resolution service used in a Microsoft Windows Server 2003 network. DNS is part of the Windows Server 2003 TCP/IP protocol suite and all TCP/IP network connections are, by default, configured with the IP address of at least one DNS server in order to perform name resolution on the network. Windows Server 2003 components that require name resolution will attempt to use this DNS server before attempting to use the previous default Windows name resolution service, Windows Internet Name Service (WINS). Typically, Windows Server 2003 DNS is deployed in support of Active Directory directory service. In this environment, DNS namespaces mirror the Active Directory forests and domains used by an organization. Network hosts and services are configured with DNS names so that they can be located in the network, and they are also configured with DNS servers that resolve the names of Active Directory domain controllers. Windows Server 2003 DNS is also commonly deployed as a non-Active Directory, or standard, Domain Name System solution, for the purposes of hosting the Internet presence of an organization. DNS Architecture DNS architecture is a hierarchical distributed database and an associated set of protocols that define: A mechanism for querying and updating the database. A mechanism for replicating the information in the database among servers. A schema of the database. DNS originated in the early days of the Internet when the Internet was a small network established by the United States Department of Defense for research purposes. The host names of the computers in this network were managed through the use of a single HOSTS file located on a centrally administered server. Each site that needed to resolve host names on the network downloaded this file. As the number of hosts on the Internet grew, the traffic generated by the update process increased, as well as the size of the HOSTS file. The need for a new system, which would offer features such as scalability, decentralized administration, support for various data types, became more and more obvious. The Domain Name System introduced in 1984 became this new system. With DNS, the host names reside in a database that can be distributed among multiple servers, decreasing the load on any one server and providing the ability to administer this naming system on a per-partition basis. DNS supports hierarchical names and allows registration of various data types in addition to host name to IP address mapping used in HOSTS files. Because the DNS database is distributed, its potential size is unlimited and performance is not degraded when more servers are added. The original DNS was based on Request for Comment (RFC) 882 (―Domain Names: Concepts and Facilities‖) and RFC 883 (Domain Names–Implementation and Specification), which were superseded by RFC 1034 (―Domain Names–Concepts and Facilities‖), and RFC 1035 (―Domain Names–Implementation and Specification‖). Additional RFCs that describe DNS security, implementation, and administrative issues later augmented the original design specifications. The implementation of DNS — Berkeley Internet Name Domain (BIND) — was originally developed for the 4.3 BSD UNIX Operating System. The Microsoft implementation of DNS became a part of the operating system in Microsoft Windows NT Server 4.0. The Windows NT 4.0 DNS server, like most DNS implementations, has its roots in RFCs 1034 and 1035. The RFCs used in Microsoft Windows 2000 and Windows Server 2003 operating systems are 1034, 1035, 1886, 1996, 1995, 2136, 2308, and 2052. DNS Domain Names The Domain Name System is implemented as a hierarchical and distributed database containing various types of data, including host names and domain names. The names in a DNS database form a hierarchical tree structure called the domain namespace. Domain names consist of individual labels separated by dots, for example: mydomain.microsoft.com. A Fully Qualified Domain Name (FQDN) uniquely identifies the hosts position within the DNS hierarchical tree by specifying a list of names separated by dots in the path from the referenced host to the root. The next figure shows an example of a DNS tree with a host called mydomain within the microsoft.com. domain. The FQDN for the host would be mydomain.microsoft.com. Understanding the DNS Domain Namespace The DNS domain namespace, as shown in the following figure, is based on the concept of a tree of named domains. Each level of the tree can represent either a branch or a leaf of the tree. A branch is a level where more than one name is used to identify a collection of named resources. A leaf represents a single name used once at that level to indicate a specific resource. DNS Domain Name Hierarchy The previous figure shows how Microsoft is assigned authority by the Internet root servers for its own part of the DNS domain namespace tree on the Internet. DNS clients and servers use queries as the fundamental method of resolving names in the tree to specific types of resource information. This information is provided by DNS servers in query responses to DNS clients, who then extract the information and pass it to a requesting program for resolving the queried name. In the process of resolving a name, keep in mind that DNS servers often function as DNS clients, querying other servers in order to fully resolve a queried name. How the DNS Domain Namespace Is Organized Any DNS domain name used in the tree is technically a domain. Most DNS discussions, however, identify names in one of five ways, based on the level and the way a name is commonly used. For example, the DNS domain name registered to Microsoft (microsoft.com.) is known as a second-level domain. This is because the name has two parts (known as labels) that indicate it is located two levels below the root or top of the tree. Most DNS domain names have two or more labels, each of which indicates a new level in the tree. Periods are used in names to separate labels. The five categories used to describe DNS domain names by their function in the namespace are described in the following table, along with an example of each name type. Types of DNS Domain Names Name Type Description Example Root This is the top of the tree, representing an A single period (.) or a period used domain unnamed level; it is sometimes shown as two at the end of a name, such as empty quotation marks (""), indicating a null ―example.microsoft.com.‖ value. When used in a DNS domain name, it is stated by a trailing period (.) to designate that the name is located at the root or highest level of the domain hierarchy. In this instance, the DNS domain name is considered to be complete and points to an exact location in the tree of names. Names stated this way are called fully qualified domain names (FQDNs). Top level A name used to indicate a country/region or the ――.com‖, which indicates a name domain type of organization using a name. registered to a business for commercial use on the Internet. Second Variable-length names registered to an individual ――microsoft.com. ‖, which is the level or organization for use on the Internet. These second-level domain name domain names are always based upon an appropriate top- registered to Microsoft by the level domain, depending on the type of Internet DNS domain name organization or geographic location where a name registrar. is used. Subdomain Additional names that an organization can create ――example.microsoft.com. ‖, which that are derived from the registered second-level is a fictitious subdomain assigned domain name. These include names added to by Microsoft for use in grow the DNS tree of names in an organization documentation example names. and divide it into departments or geographic locations. Host or Names that represent a leaf in the DNS tree of ――host-a.example.microsoft.com.‖, resource names and identify a specific resource. Typically, where the first label (―host-a‖) is the name the leftmost label of a DNS domain name DNS host name for a specific computer on the network. identifies a specific computer on the network. For example, if a name at this level is used in a host (A) RR, it is used to look up the IP address of computer based on its host name. Common DNS Resource Records Description Class Time To Live (TTL) Type Data Start of Internet Default TTL is 60 minutes SOA Owner Name Authority (IN) Primary Name Server DNS Name, Serial Number Refresh Interval Retry Interval Expire Time Minimum TTL Host Internet Record-specific TTL if present, A Owner Name (Host DNS (IN) or else zone (SOA) TTL Name) Host IP Address Name Server Internet Record-specific TTL if present, NS Owner Name (IN) or else zone (SOA) TTL Name Server DNS Name Mail Internet Record-specific TTL if present, MX Owner Name Exchanger (IN) or else zone (SOA) TTL Mail Exchange Server DNS Name, Preference Number Canonical Internet Record-specific TTL if present, CNAME Owner Name (Alias Name) Name (IN) or else zone (SOA) TTL Host DNS Name (an alias) Port using DNS uses TCP and UDP port 53 for lookups and transfers.

View Full Text

Details

  • File Type
    pdf
  • Upload Time
    -
  • Content Languages
    English
  • Upload User
    Anonymous/Not logged-in
  • File Pages
    15 Page
  • File Size
    -

Download

Channel Download Status
Express Download Enable

Copyright

We respect the copyrights and intellectual property rights of all users. All uploaded documents are either original works of the uploader or authorized works of the rightful owners.

  • Not to be reproduced or distributed without explicit permission.
  • Not used for commercial purposes outside of approved use cases.
  • Not used to infringe on the rights of the original creators.
  • If you believe any content infringes your copyright, please contact us immediately.

Support

For help with questions, suggestions, or problems, please contact us